| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Doert, Thomas
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (41/41 displayed)
- 2024Comparison of local structure of CrCl3 bulk and nanocrystals above and below the structural phase transition
- 2023Nano-scale new Heusler compounds NiRh2Sb and CuRh2Sbcitations
- 2023Spontaneous polarization and pyroelectric coefficient of lithium niobate and lithium tantalate determined from crystal structure datacitations
- 2023In situ Investigations of the Formation Mechanism of Metastable γ ‐BiPd Nanoparticles in Polyol Reductions
- 2023Unconventional Spin State Driven Spontaneous Magnetization in a Praseodymium Iron Antimonidecitations
- 2022$mathrm{In}$ $mathrm{situ}$ investigation of the formation mechanism of $α$-Bi$_2$Rh nanoparticles in polyol reductionscitations
- 2022In situ investigation of the formation mechanism of α-Bi2Rh nanoparticles in polyol reductionscitations
- 2022Combined experimental and theoretical study of hydrostatic (He-gas) pressure effects in α-RuCl3citations
- 2021Freestanding Nanolayers of a Wide-Gap Topological Insulator through Liquid-Phase Exfoliationcitations
- 2021Freestanding Nanolayers of a Wide-Gap Topological Insulator through Liquid-Phase Exfoliation
- 2021Formation of Bi2Ir nanoparticles in a microwave-assisted polyol process revealing the suboxide Bi4Ir2Ocitations
- 2021Freestanding few-layer sheets of a dual topological insulatorcitations
- 2021Low Temperature Activation of Tellurium and Resource-Efficient Synthesis of AuTe2 and Ag2Te in Ionic Liquidscitations
- 2021Hydrothermal Synthesis, Crystal Structure, and Magnetism of Na2[Ir(OH)6] and its Dehydration to Na2IrO3citations
- 2021Tunable Potassium Ion Conductivity and Magnetism in Substituted Layered Ferratescitations
- 2021Atypical transport for GdTe1.8 upon substitution with Se: Strong electron-phonon coupling in polaronic conduction
- 2021Formation of Bi$_2$Ir nanoparticles in a microwave-assisted polyol process revealing the suboxide Bi$_4$Ir$_2$Ocitations
- 2021Ba3[Rh(OH)6]2 ⋅ H2O – a Precursor to Barium Oxorhodates with One-dimensional Hydrogen Bonding Systemscitations
- 2020Synthesis of $(Li_{2}Fe_{1–y}Mn_{y})SO$ Antiperovskites with Comprehensive Investigations of $(Li_{2}Fe_{0.5}Mn_{0.5})SO$ as Cathode in Li-ion Batteriescitations
- 2020Hydroflux syntheses and crystal structures of hydrogarnets Ba3[RE(OH)6]2(RE = Sc, Y, Ho-Lu)citations
- 2020The Hydrogarnets Sr3[RE(OH)6]2 (RE = Sc, Y, Ho – Lu): Syntheses, Crystal Structures, and their Thermal Decomposition to Ternary Rare-Earth Metal Oxidescitations
- 2020CaNa[Cr(OH)6] – A Layered Hydroxochromate(III) with Ordered Brucite Structure and its Thermal Decompositioncitations
- 2020The Weak 3D Topological Insulator Bi12Rh3Sn3I9
- 2019Syntheses, Crystal Structures and Physical Properties of Chromium and Rhodium Hydrogarnets Ca 3 [Cr(OH) 6 ] 2 , Sr 3 [Cr(OH) 6 ] 2 and Sr 3 [Rh(OH) 6 ] 2citations
- 2019Mechanism of Bi−Ni Phase Formation in a Microwave-Assisted Polyol Process
- 2018The Intermetalloid Cluster Cation (CuBi8)3+citations
- 2017Optimized Synthesis of the Bismuth Subiodides BmI4 (m = 4, 14, 16, 18) and the Electronic Properties of Bi14I4 and Bi18I4citations
- 2016Jeff Description of the Honeycomb Mott Insulator α-RuCl3citations
- 2016Downscaling Effect on the Superconductivity of Pd3Bi2X2 (X = S or Se) Nanoparticles Prepared by Microwave-Assisted Polyol Synthesiscitations
- 2016Resource-Efficient High-Yield Ionothermal Synthesis of Microcrystalline Cu3-xPcitations
- 2014Synthesis, crystal structures, spectroscopic and electrochemical studies on Cu(II) and Ni(II) complexes with compartmental nitrogen-oxygen mixed donor ligandscitations
- 2014Single-crystal X-ray diffraction investigation of the reversible order-disorder phase transition in iron-deficient TlFe2-xSe2citations
- 2013Tetragonal to orthorhombic phase transition of GdFeAsO studied by single-crystal X-ray diffractioncitations
- 2012Ternary lanthanum sulfide selenides α-LaS2-xSex (0<x<2) with mixed dichalcogenide anions X22- (X=S, Se)citations
- 2011Proliferation, differentiation and gene expression of osteoblasts in boron-containing associated with dexamethasone deliver from mesoporous bioactive glass scaffoldscitations
- 2011Bioactive SrO-SiO<sub>2</sub> glass with well-ordered mesopores: Characterization, physiochemistry and biological propertiescitations
- 2011High-pressure synthesis of rare-earth metal disulfides and diselenides LnX2 (Ln = Sm, Gd, Tb, Dy, Ho, Er and Tm; X = S, Se)citations
- 2005Incommensurately modulated CeSi1.82citations
- 2004Structure-Property Relations and Diffusion Pathways of the Silver Ion Conductor Ag5Te2Clcitations
- 2004Magnetic, electrical resistivity, heat-capacity, and thermopower anomalies in CeCuAs2citations
- 2003Enhanced electrical resistivity before Néel order in the metals RCuAs2 (R = Sm, Gd, Tb, and Dy)citations
Places of action
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article
Proliferation, differentiation and gene expression of osteoblasts in boron-containing associated with dexamethasone deliver from mesoporous bioactive glass scaffolds
Abstract
<p>Boron is one of the trace elements in the human body which plays an important role in bone growth. Porous mesopore bioactive glass (MBG) scaffolds are proposed as potential bone regeneration materials due to their excellent bioactivity and drug-delivery ability. The aims of the present study were to develop boron-containing MBG (B-MBG) scaffolds by sol-gel method and to evaluate the effect of boron on the physiochemistry of B-MBG scaffolds and the response of osteoblasts to these scaffolds. Furthermore, the effect of dexamethasone (DEX) delivery in B-MBG scaffold system was investigated on the proliferation, differentiation and bone-related gene expression of osteoblasts. The composition, microstructure and mesopore properties (specific surface area, nano-pore volume and nano-pore distribution) of B-MBG scaffolds have been characterized. The effect of boron contents and large-pore porosity on the loading and release of DEX in B-MBG scaffolds were also investigated. The results have shown that the incorporation of boron into MBG scaffolds slightly decreases the specific surface area and pore volume, but maintains well-ordered mesopore structure and high surface area and nano-pore volume compared to non-mesopore bioactive glass. Boron contents in MBG scaffolds did not influence the nano-pore size distribution or the loading and release of DEX. B-MBG scaffolds have the ability to maintain a sustained release of DEX in a long-term span. Incorporating boron into MBG glass scaffolds led to a controllable release of boron ions and significantly improved the proliferation and bone-related gene expression (Col I and Runx2) of osteoblasts. Furthermore, the sustained release of DEX from B-MBG scaffolds significantly enhanced alkaline phosphatase (ALP) activity and gene expressions (Col I, Runx2, ALP and BSP) of osteoblasts. These results suggest that boron plays an important role in enhancing osteoblast proliferation in B-MBG scaffold system and DEX-loaded B-MBG scaffolds show great potential as a release system to enhance osteogenic property for bone tissue engineering application.</p>